A semiconductor device is disclosed including an integrated memory module. The integrated memory module may include a pair of semiconductor die, which together, operate as a single, integrated flash memory. In one example, the first die may include the memory cell array and the second die may include the logic circuit such as CMOS integrated circuits. In one example, the second die may be flip-chip bonded to the first die. The flip-chip bond pads on the first and second dies may be made small, with a small pitch, to allow a large number of electrical interconnections between the first and second semiconductor dies.

A proximity sensor includes a printed circuit board substrate, a semiconductor die, electrical connectors, a lens, a light emitting assembly, and an encapsulating layer. The semiconductor die is positioned over the printed circuit board substrate with its upper surface facing away from the printed circuit board substrate. Each of the electrical connectors is in electrical communication with a contact pad of the semiconductor die and a respective contact pad of the printed circuit board substrate. The lens is positioned over a sensor area of the semiconductor die. The light emitting assembly includes a light emitting device having a light emitting area, a lens positioned over the light emitting area, and contact pads facing the printed circuit board substrate. The encapsulating layer is positioned on the printed circuit board substrate, at least one of the electrical connectors, the semiconductor die, the lens, and the light emitting assembly.

A semiconductor package includes a first semiconductor chip on a substrate, a second semiconductor chip on the substrate and spaced apart from the first semiconductor device, a mold layer on the substrate and covering sides of the first and second semiconductor chips, and an image sensor unit on the first and second semiconductor chips and the mold layer. The image sensor unit is electrically connected to the first semiconductor chip.

The present disclosure relates to a die comprising metal pillars extending from a surface of the die, the height of each pillar being substantially equal to or greater than 20 m, the pillars being intended to raise the die when fastening the die by means of a bonding material on a surface of a support. The metal pillars being inserted into the bonding material at which point the bonding material is annealed to be cured and hardened solidifying the bonding material to couple the die to the surface of the support.

A semiconductor device having an EMI shield layer and/or EMI shielding wires, and a manufacturing method thereof, are provided. In an example embodiment, the semiconductor device includes a semiconductor die, an EMI shield layer shielding the semiconductor die, and an encapsulating portion encapsulating the EMI shield layer. In another example embodiment, the semiconductor device further includes EMI shielding wires extending from the EMI shield layer and shielding the semiconductor die.

A semiconductor package includes a first semiconductor chip on a substrate, a second semiconductor chip on the substrate and spaced apart from the first semiconductor device, a mold layer on the substrate and covering sides of the first and second semiconductor chips, and an image sensor unit on the first and second semiconductor chips and the mold layer. The image sensor unit is electrically connected to the first semiconductor chip.

In a general aspect, a multi-chip semiconductor device package assembly can include a leadframe having a first die pad and a second die pad. The assembly can further include a first semiconductor die coupled to the first die pad and a second semiconductor die coupled to the second die pad. The assembly can also include a blank having a first portion coupled to the first die pad and a second portion coupled to the second die pad, such that the blank forms a bridge between the first die pad and the second die pad.

A proximity sensor includes a printed circuit board substrate, a semiconductor die, electrical connectors, a lens, a light emitting assembly, and an encapsulating layer. The semiconductor die is positioned over the printed circuit board substrate with its upper surface facing away from the printed circuit board substrate. Each of the electrical connectors is in electrical communication with a contact pad of the semiconductor die and a respective contact pad of the printed circuit board substrate. The lens is positioned over a sensor area of the semiconductor die. The light emitting assembly includes a light emitting device having a light emitting area, a lens positioned over the light emitting area, and contact pads facing the printed circuit board substrate. The encapsulating layer is positioned on the printed circuit board substrate, at least one of the electrical connectors, the semiconductor die, the lens, and the light emitting assembly.

In a general aspect, a multi-chip semiconductor device package assembly can include a leadframe having a first die pad and a second die pad. The assembly can further include a first semiconductor die coupled to the first die pad and a second semiconductor die coupled to the second die pad. The assembly can also include a blank having a first portion coupled to the first die pad and a second portion coupled to the second die pad, such that the blank forms a bridge between the first die pad and the second die pad.

A die bonding process for assembling a semiconductor device includes the steps of applying a sintered-silver-use paste to each of a plurality of first regions on an upper surface of a chip mounting part, drying the sintered-silver-use paste and applying a silver paste to a second region located between/among the respective first regions. Further, the process includes the step of mounting a semiconductor chip onto the chip mounting part in such a manner that a rear surface of the semiconductor chip faces an upper surface of the chip mounting part with the sintered-silver-use paste and the silver paste being interposed. After mounting the chip, part of each of first, second, third and fourth corners of a principal surface of the semiconductor chip is located in each of the first regions.